Title :
Flooding Water Depth Estimation With High-Resolution SAR
Author :
Iervolino, Pasquale ; Guida, Raffaella ; Iodice, Antonio ; Riccio, Daniele
Author_Institution :
Surrey Space Centre, Univ. of Surrey, Guildford, UK
Abstract :
The retrieval of flooding levels with high-resolution (HR) synthetic aperture radar (SAR) images is presented in this paper. A new framework is proposed. It is based on the inversion of theoretical scattering models initially developed for nonflooded urban areas and here adapted to the flooding case. Starting from the theory, two possible retrieval approaches have been developed and are the main topic of this paper: two possible retrieval approaches have been developed and are the main topic of this paper: the local Single Image Objects Aware (SIObA) and the global Two Image Area Aware (TIArA). These two approaches are conceived to be applicable under different working conditions and consequently holding different properties and reliability. For each of them, a different algorithm is derived and tested, and the retrieval results are validated on a meaningful data set of HR TerraSAR-X images relevant to the Gloucestershire (U.K.) flooding that occurred in year 2007.
Keywords :
floods; synthetic aperture radar; AD 2007; Gloucestershire flooding; HR TerraSAR-X image; SIObA; TIArA; UK; derived algorithm; flooding case; flooding level retrieval; flooding water depth estimation; global Two Image Area Aware; high-resolution SAR; high-resolution synthetic aperture radar image; local Single Image Objects Aware; nonflooded urban area; retrieval approach; tested algorithm; theoretical scattering model inversion; working condition; Buildings; Estimation; Monitoring; Scattering; Sensors; Synthetic aperture radar; Electromagnetic modeling; Synthetic aperture radar (SAR); feature extraction; floods; inverse problems;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2014.2358501
